CN112720908B - Hot air melting plastic extrusion granulator and using method thereof - Google Patents

Abstract

The invention discloses a hot air melting plastic extrusion granulator and a using method thereof, the hot air melting plastic extrusion granulator comprises an equipment body, wherein the equipment body comprises a hot air circulation system, a frame, a melting box body, a melt gathering and pressurizing conveying chamber and a granulating device, the hot air circulation system comprises an air return pipe, a fan, a heater and an air inlet pipe, the melt gathering and pressurizing conveying chamber is embedded in the frame, the melt box body is provided with a stirring device and a feeding hole, the stirring device comprises a driving motor I, a gearbox, a stirring rod and stirring blades, an output shaft of the driving motor is connected with the gearbox, the stirring rod is connected with the gearbox, a stirring cross rod is arranged at the bottom of the stirring rod, and the stirring cross rod is provided with stirring blades. According to the invention, through the integrated process flow, hot air is recycled in the recovery process, no exhaust gas, waste liquid and the like are discharged, the process is clean, the blade rotor gathers and conveys the melt, the speed and pressure of the melt at the inlet of the screw machine barrel can be effectively improved, the extrusion of the screw machine barrel is facilitated, and the working efficiency is high.

Description

Hot air melting plastic extrusion granulator and using method thereof

Technical Field

The invention belongs to the technical field of granulators, and particularly relates to a hot air melting plastic extrusion granulator and a use method thereof.

Background

The plastic has increasingly wide application range, replaces metal, wood, paper and the like in a large quantity, and is widely applied, so that a large quantity of waste plastics are generated, and are difficult to degrade, so that the treatment becomes a difficult problem, the environment is polluted, and the resource is wasted. The recycling and recycling development of waste plastics are deep knowledge of the environment and resources, and are a survival mode for reducing the environmental pollution of the waste plastics and reducing the resource waste.

The most common mode of recycling waste plastics in China is recycling granulation, and the traditional granulation process is to crush and clean the recycled waste plastics, then carry out granulation through screw extrusion, and the crushing noise is large, the dust is much and the sewage is generated to cause secondary pollution during working.

Disclosure of Invention

The invention provides a hot air melting plastic extrusion granulator and a use method thereof, wherein the integrated process flow is arranged, hot air is recycled in the recovery process, no exhaust gas, waste liquid and the like are discharged, the process is clean, the blade rotor gathers and conveys the melt, the speed and the pressure of the melt at the inlet of a screw machine barrel can be effectively improved, the extrusion of the screw machine barrel is facilitated, and the working efficiency is high.

The technical scheme of the invention is realized as follows:

The utility model provides a hot-blast molten plastic extrusion granulator, its includes the equipment body, its characterized in that, the equipment body includes hot air circulation system, frame, melting box, fuse-element gathering pressurization delivery chamber, grain cutting device, hot air circulation system includes muffler, fan, heater, air-supply line, the fuse-element gathering pressurization delivery chamber embeds in the frame, the fuse-element box is equipped with agitating unit and feed inlet, agitating unit includes driving motor one, gearbox, puddler and stirring vane, the driving motor output shaft is connected with the gearbox, the puddler is connected with the gearbox, the bottom of puddler is equipped with the stirring horizontal pole, be equipped with stirring vane on the stirring horizontal pole, stirring vane's bottom is equipped with the separation sieve, fuse-element box's bottom and fuse-element gathering pressurization delivery chamber link up each other, one side of grain cutting device is equipped with driving motor three, and the other end is equipped with the barrel.

In the hot air melting plastic extrusion granulator, a melt connecting pipe is arranged on the side face of the machine barrel, one end of the melt connecting pipe is communicated with the machine barrel, the other end of the melt connecting pipe is connected with a melt gathering and pressurizing conveying chamber, and the melt connecting pipe is of a funnel-shaped structure.

In the hot air molten plastic extrusion granulator, a rotary disc, a blade rotor and a spring are arranged in a melt gathering and pressurizing conveying chamber, the blade rotor comprises a blade rotor I and a blade rotor II, the blade rotor is L-shaped, and the spring is positioned between the blade rotor I and the blade rotor II.

In the hot air molten plastic extrusion granulator, one end of the machine barrel is provided with the second bevel gear and the second driving motor, the second bevel gear is fixed on an output shaft of the second driving motor, a rotating rod is arranged at the bottom of the rotating disc, the first bevel gear is arranged on the rotating rod, and the second bevel gear is meshed with the first bevel gear.

In the hot air melting plastic extrusion granulator, an extrusion screw is arranged in the machine barrel, one end of the extrusion screw is connected with an output shaft of a driving motor II, a bracket is arranged at the lower part of the machine barrel, and the bracket comprises a supporting leg I.

In the hot air melting plastic extrusion granulator, the first supporting leg is provided with the transverse supporting rod, the transverse supporting rod penetrates through the frame, and the frame and the bracket are made of metal materials.

In the hot air melting plastic extrusion granulator, the first blade rotor and the second blade rotor are of L-shaped structures, the melting box body is positioned at one end of the melt gathering and pressurizing conveying chamber, and the volume of the melting box body is larger than that of the melt gathering and pressurizing conveying chamber.

In the hot air melting plastic extrusion granulator, one end of the air return pipe is connected with the side face of the melting box body, the other end of the air return pipe is connected with the fan, an air inlet pipe is arranged at the outlet of the fan, and the heater is arranged on the air inlet pipe.

In the hot air melting plastic extrusion granulator of the invention, a separation sieve plate is fixed between the bottom of a melting box body and the top of a melt gathering and pressurizing conveying chamber.

In the method for using the hot air molten plastic extrusion granulator, the method is characterized by comprising the following steps of:

1) Waste plastics are put into the melting box from the feed inlet, and the materials are heated and melted by contacting with hot air;

2) Stirring the materials by the stirring blades, and allowing the melted materials to slowly pass through the separation sieve plate under the extrusion action of the stirring blades;

3) The blade rotor scrapes the melt in time through rotation and enters a melt gathering and pressurizing conveying chamber;

4) In this chamber, the blade rotor gathers and feeds the plastic melt into a melt connection;

5) The plastic melt is extruded and conveyed to an extrusion opening die by an extrusion screw rod after entering a machine barrel through a melt connecting pipe;

6) The granulating device performs granulating and cooling to finally generate granulated plastic products.

The hot air melting plastic extrusion granulator and the use method thereof have the following beneficial effects:

1) The circulating hot air is utilized to directly melt the waste plastics in the process, so that the energy is saved, and the pollution is less;

2) In the melt gathering and pressurizing conveying chamber, the blade rotor extrudes the plastic melt, improves the plasticizing degree of the plastic melt, conveys the plastic melt to an extrusion screw for extrusion, and finally completes granulation through a die and a granulating device, so that the integration of melting, extrusion and granulation of waste plastics is realized, the operation is simple, the energy is saved, and the working efficiency is high;

3) The crushing link in the past waste plastic treatment is not needed, so that noise and dust pollution are avoided, the working environment is improved, and meanwhile, dust is reduced;

4) When the relative distance between the top ends of the two blade rotors is increased, the elastic force is released, the blade rotors continuously cling to the inner wall surface of the melt gathering and pressurizing conveying chamber to move, and the generation of plastic melt leakage flow is avoided;

5) When the waste plastics are recycled, hot air is recycled, and no waste gas, waste liquid and the like are discharged;

6) The structure of the melt gathering and pressurizing conveying chamber can effectively promote the feeding of the melt at the inlet of the screw machine barrel, and is beneficial to the extrusion of the screw machine barrel.

Drawings

FIG. 1 is a schematic diagram of a hot air melt plastic extrusion granulator according to the present invention;

fig. 2 is an enlarged schematic view of a portion of fig. 1 at A-A.

In the figure: 1-muffler, 2-fan, 3-heater, 4-air-supply line, 5-gearbox, 6-driving motor one, 7-feed inlet, 8-melting box, 9-puddler, 10-stirring vane, 11-stirring horizontal pole, 12-melt gathering pressurized delivery room, 13-driving motor two, 14-dwang, 15-conical gear one, 16-melt take over, 17-extrusion die, 18-driving motor three, 19-particle cutting device, 20-supporting leg, 21-barrel, 22-extrusion screw, 23-support, 24-conical gear two, 25-transverse supporting rod, 26-separation sieve plate, 27-rack, 28-rotating disc, 29-spring, 30-vane rotor one, 31-vane rotor two, 32-melt gathering pressurized delivery room wall.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The hot air melting plastic extrusion granulator of the invention shown in figures 1 to 2 comprises a device body, wherein the device body comprises a hot air circulation system, a frame 27, a melting box body 8, a melt gathering and pressurizing conveying chamber 12 and a granulating device 19, the hot air circulation system comprises an air return pipe 1, a fan 2, a heater 3 and an air inlet pipe 4, the air inlet pipe 4 and the air return pipe 1 are beneficial to the hot air circulation utilization in the melting box body 8, the materials can be effectively heated and melted by supplementing heat through the heating pipe, the working efficiency is improved, the energy is effectively saved, the melt gathering and pressurizing conveying chamber 12 is embedded in the frame 27, the melt box body 8 is provided with a stirring device and a feeding port 7, the stirring device comprises a first driving motor 6, a gearbox 5, a stirring rod 9 and a stirring blade 10, the output shaft of the first driving motor 6 is connected with the gearbox 5, the stirring rod 9 is connected with the gearbox 5, the bottom of the stirring rod 9 is provided with a stirring cross rod 11, the stirring cross rod 11 is provided with a stirring blade 10, the bottom of the stirring blade 10 is provided with a separation sieve plate 26, the bottom of the melt box 8 is communicated with a melt gathering and pressurizing conveying chamber 12, one side of the granulating device 19 is provided with a driving motor III 18, the other end of the granulating device is provided with a machine barrel 21, the side surface of the machine barrel 21 is provided with a melt connecting pipe 16, one end of the melt connecting pipe 16 is communicated with the machine barrel 21, the other end of the melt connecting pipe 16 is connected with the melt gathering and pressurizing conveying chamber 12, the melt connecting pipe 16 is of a funnel-shaped structure, a rotary disc 28, a blade rotor and a spring 29 are arranged in the melt gathering and pressurizing conveying chamber 12, the blade rotor comprises a blade rotor I30 and a blade rotor II 31, the blade rotor is L-shaped, the spring 29 is positioned between the blade rotor I30 and the blade rotor II 31, one end of the machine barrel 21 is provided with a conical gear II 24 and a driving motor II 13, the second conical gear 24 is fixed on the output shaft of the second driving motor 13, the rotating rod 14 is arranged at the bottom of the rotating disc 28, the first conical gear 15 is arranged on the rotating rod 14, the first conical gear 15 is meshed with the second conical gear 24, the extrusion screw 22 is arranged in the machine barrel 21, one end of the extrusion screw 22 is connected with the output shaft of the second driving motor 13, the support 23 is arranged at the lower part of the machine barrel 21, the support 23 comprises a support leg 20, the support leg 20 is provided with a transverse support rod 25, the transverse support rod 25 penetrates through the frame 27, the frame 27 and the support 23 are made of metal materials, the first blade rotor 30 and the second blade rotor 31 are of L-shaped structures, the melting box 8 is positioned at one end of the melt gathering and pressurizing conveying chamber 12, the volume of the melting box 8 is larger than that of the melt gathering and pressurizing conveying chamber 12, one end of the air return pipe 1 is connected with the side surface of the melting box 8, the other end of the air return pipe is connected with the fan 2, an air inlet pipe 4 is arranged at the outlet of the air inlet pipe 2, the heater 3 is arranged on the air inlet pipe 4, the separation 26 is fixed between the bottom of the melting box 8 and the top of the melt gathering and pressurizing conveying chamber 12, and the granulating machine is used as follows:

1) Waste plastics are put into the melting box body 8 from the feeding hole 7, and the materials are heated and melted by contacting with hot air;

2) Stirring blades 10 stir the materials, and the melted materials slowly pass through a separation sieve plate 26 under the extrusion action of the stirring blades 10;

3) The blade rotor scrapes the melt in time by rotating and enters the melt gathering and pressurizing conveying chamber 12;

4) In this chamber, the blade rotor gathers and feeds the plastic melt into a melt connection;

5) The plastic melt is extruded and conveyed to an extrusion opening die by an extrusion screw 22 through a melt connecting pipe into a machine barrel 21;

6) The granulating device 19 performs granulating and cooling to finally produce granulated plastic products.

The working principle of the invention is as follows: when the rotary disc is driven by the motor device to rotate, the rotary disc drives the blade rotors to rotate simultaneously, the blade rotors relatively move along the direction of the inner groove of the rotary disc and rotationally move along the inner wall of the conveying chamber, springs in the two blade rotors are used for storing and releasing elastic force generated when the blade rotors move, the blade rotors rotate, when the blade rotors are restrained by the inner wall surface of the outer disc, the relative distance between the top ends of the two blade rotors is reduced, the springs are pressed, the elastic force is stored, when the relative distance between the top ends of the two blade rotors is increased, the elastic force is released, the blade rotors continuously cling to the melt to gather and press the inner wall surface of the conveying chamber to move, the generation of plastic melt leakage flow is avoided, the blade rotors scrape the separated plastic melt on the separating sieve plate to gather and press the plastic melt into the connecting pipe, waste plastic enters the melting box through the feed inlet, the waste plastic is heated and melted through the contact of hot air, the stirring mechanism stirs the materials, the melted materials are extruded by the stirring blades, the materials slowly pass through the separating sieve, the blade rotors scrape the waste plastic melt in time through rotation, enter the melt gathering and pressurizing and conveying chamber, gather and convey the plastic melt into the connecting pipe, the plastic melt through the connecting pipe, the barrel, the plastic melt is extruded and finally the plastic melt is granulated and conveyed into the extruding screw die to the granulating die, and cooled. The object of the present invention has been accomplished.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a hot-blast molten plastic extrusion granulator, includes the equipment body, its characterized in that, the equipment body includes hot-blast circulation system, frame, melting box, fuse-element gather together pressurization delivery room, grain cutting device, hot-blast circulation system includes muffler, fan, heater, air-supply line, fuse-element gather together pressurization delivery room and imbeds on the frame, the melting box is equipped with agitating unit and feed inlet, agitating unit includes driving motor one, gearbox, puddler and stirring vane, driving motor one output shaft is connected with the gearbox, the puddler is connected with the gearbox, the bottom of puddler is equipped with the stirring horizontal pole, be equipped with stirring vane on the stirring horizontal pole, stirring vane's bottom is equipped with the separation sieve, the bottom of melting box and fuse-element gather together pressurization delivery room link up each other, one side of grain cutting device is equipped with driving motor three, and the other end is equipped with the barrel;

a melt connecting pipe is arranged on the side surface of the machine barrel, one end of the melt connecting pipe is communicated with the machine barrel, the other end of the melt connecting pipe is connected with a melt gathering and pressurizing conveying chamber, and the melt connecting pipe is of a funnel-shaped structure;

The melt gathering, pressurizing and conveying chamber is internally provided with a rotary disc, a blade rotor and a spring, wherein the blade rotor comprises a blade rotor I and a blade rotor II, the blade rotor is L-shaped, and the spring is positioned between the blade rotor I and the blade rotor II.

2. The hot air molten plastic extrusion granulator according to claim 1, wherein one end of the machine barrel is provided with a second bevel gear and a second driving motor, the second bevel gear is fixed on an output shaft of the second driving motor, a rotating rod is arranged at the bottom of the rotating disc, the first bevel gear is arranged on the rotating rod, and the second bevel gear is meshed with the first bevel gear.

3. The hot air molten plastic extrusion granulator according to claim 1, wherein an extrusion screw is arranged in the machine barrel, one end of the extrusion screw is connected with an output shaft of a second driving motor, a bracket is arranged at the lower part of the machine barrel, and the bracket comprises a first supporting leg.

4. A hot air melt plastic extrusion granulator according to claim 3, wherein the first support leg is provided with a transverse support rod, the transverse support rod penetrates through the frame, and the frame and the bracket are both made of metal materials.

5. The hot air molten plastic extrusion granulator according to claim 1, wherein the first blade rotor and the second blade rotor are of L-shaped structures, the melting box body is positioned at one end of the melt gathering and pressurizing conveying chamber, and the volume of the melting box body is larger than that of the melt gathering and pressurizing conveying chamber.

6. The hot air molten plastic extrusion granulator according to claim 1, wherein one end of the air return pipe is connected with the side surface of the melting box body, the other end of the air return pipe is connected with a fan, an air inlet pipe is arranged at the outlet of the fan, and the heater is arranged on the air inlet pipe.

7. The hot air melt plastic extrusion granulator of claim 1 wherein the separation screen is secured between the bottom of the melt tank and the top of the melt gathering and pressurizing conveyor chamber.

8. Use of a hot air melt plastic extrusion granulator according to any of claims 1 to 7, characterized in that the granulator is used in the following steps:

1) Waste plastics are put into the melting box from the feed inlet, and the materials are heated and melted by contacting with hot air;

2) Stirring the materials by the stirring blades, and allowing the melted materials to slowly pass through the separation sieve plate under the extrusion action of the stirring blades;

3) The blade rotor scrapes the melt in time through rotation and enters a melt gathering and pressurizing conveying chamber;

4) In this chamber, the blade rotor gathers and feeds the plastic melt into a melt connection;

5) The plastic melt is extruded and conveyed to an extrusion opening die by an extrusion screw rod after entering a machine barrel through a melt connecting pipe;

6) The granulating device performs granulating and cooling to finally generate granulated plastic products.